/* * Mathlib : A C Library of Special Functions * Copyright (C) 1998 Ross Ihaka * Copyright (C) 2000--2005 The R Core Team * based on AS 111 (C) 1977 Royal Statistical Society * and on AS 241 (C) 1988 Royal Statistical Society * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, a copy is available at * https://www.R-project.org/Licenses/ * * SYNOPSIS * * double qnorm5(double p, double mu, double sigma, * int lower_tail, int log_p) * {qnorm (..) is synonymous and preferred inside R} * * DESCRIPTION * * Compute the quantile function for the normal distribution. * * For small to moderate probabilities, algorithm referenced * below is used to obtain an initial approximation which is * polished with a final Newton step. * * For very large arguments, an algorithm of Wichura is used. * * REFERENCE * * Beasley, J. D. and S. G. Springer (1977). * Algorithm AS 111: The percentage points of the normal distribution, * Applied Statistics, 26, 118-121. * * Wichura, M.J. (1988). * Algorithm AS 241: The Percentage Points of the Normal Distribution. * Applied Statistics, 37, 477-484. */ #include "nmath.h" #include "dpq.h" double qnorm5(double p, double mu, double sigma, int lower_tail, int log_p) { double p_, q, r, val; #ifdef IEEE_754 if (ISNAN(p) || ISNAN(mu) || ISNAN(sigma)) return p + mu + sigma; #endif R_Q_P01_boundaries(p, ML_NEGINF, ML_POSINF); if(sigma < 0) ML_WARN_return_NAN; if(sigma == 0) return mu; p_ = R_DT_qIv(p);/* real lower_tail prob. p */ q = p_ - 0.5; #ifdef DEBUG_qnorm REprintf("qnorm(p=%10.7g, m=%g, s=%g, l.t.= %d, log= %d): q = %g\n", p,mu,sigma, lower_tail, log_p, q); #endif /*-- use AS 241 --- */ /* double ppnd16_(double *p, long *ifault)*/ /* ALGORITHM AS241 APPL. STATIST. (1988) VOL. 37, NO. 3 Produces the normal deviate Z corresponding to a given lower tail area of P; Z is accurate to about 1 part in 10**16. (original fortran code used PARAMETER(..) for the coefficients and provided hash codes for checking them...) */ if (fabs(q) <= .425) {/* 0.075 <= p <= 0.925 */ r = .180625 - q * q; val = q * (((((((r * 2509.0809287301226727 + 33430.575583588128105) * r + 67265.770927008700853) * r + 45921.953931549871457) * r + 13731.693765509461125) * r + 1971.5909503065514427) * r + 133.14166789178437745) * r + 3.387132872796366608) / (((((((r * 5226.495278852854561 + 28729.085735721942674) * r + 39307.89580009271061) * r + 21213.794301586595867) * r + 5394.1960214247511077) * r + 687.1870074920579083) * r + 42.313330701600911252) * r + 1.); } else { /* closer than 0.075 from {0,1} boundary */ /* r = min(p, 1-p) < 0.075 */ if (q > 0) r = R_DT_CIv(p);/* 1-p */ else r = p_;/* = R_DT_Iv(p) ^= p */ r = sqrt(- ((log_p && ((lower_tail && q <= 0) || (!lower_tail && q > 0))) ? p : /* else */ log(r))); /* r = sqrt(-log(r)) <==> min(p, 1-p) = exp( - r^2 ) */ #ifdef DEBUG_qnorm REprintf("\t close to 0 or 1: r = %7g\n", r); #endif if (r <= 5.) { /* <==> min(p,1-p) >= exp(-25) ~= 1.3888e-11 */ r += -1.6; val = (((((((r * 7.7454501427834140764e-4 + .0227238449892691845833) * r + .24178072517745061177) * r + 1.27045825245236838258) * r + 3.64784832476320460504) * r + 5.7694972214606914055) * r + 4.6303378461565452959) * r + 1.42343711074968357734) / (((((((r * 1.05075007164441684324e-9 + 5.475938084995344946e-4) * r + .0151986665636164571966) * r + .14810397642748007459) * r + .68976733498510000455) * r + 1.6763848301838038494) * r + 2.05319162663775882187) * r + 1.); } else { /* very close to 0 or 1 */ r += -5.; val = (((((((r * 2.01033439929228813265e-7 + 2.71155556874348757815e-5) * r + .0012426609473880784386) * r + .026532189526576123093) * r + .29656057182850489123) * r + 1.7848265399172913358) * r + 5.4637849111641143699) * r + 6.6579046435011037772) / (((((((r * 2.04426310338993978564e-15 + 1.4215117583164458887e-7)* r + 1.8463183175100546818e-5) * r + 7.868691311456132591e-4) * r + .0148753612908506148525) * r + .13692988092273580531) * r + .59983220655588793769) * r + 1.); } if(q < 0.0) val = -val; /* return (q >= 0.)? r : -r ;*/ } return mu + sigma * val; }